An RF assembly (20) operating at a predetermined wavelength of &lgr; and having a ground-plane interface (26) between first and second components (22, 24) is presented. A bond wire (48) couples the components (22, 24) along a bond-wire directrix (54). The components (22, 24) have grounding members (30, 32) establishing substantially coplanar ground planes (42, 44). The grounding members (30, 32) are coupled together so as to create a semi-cylindrical slot (28) having an opening (60) substantially coincident with the ground planes (42, 32). The slot 28 has an axis (66) proximate the bond-wire directrix (54), and a radius (68) substantially equal to &lgr;/2. The slot axis (66) and the bond-wire directrix (54) are located within a plane (56) substantially perpendicular to the ground planes (42, 32).
Legal claims defining the scope of protection, as filed with the USPTO.
1. An RF assembly operating at a predetermined wavelength of and having a ground-plane interface between a first component and a second component, said RF assembly comprising: a bond wire coupling said first component to said second component; a first grounding member of said first component, wherein said first grounding member establishes a first ground plane; and a second grounding member of said second component, wherein said second grounding member establishes a second ground plane, and wherein said second grounding member is coupled to said first grounding member so as to create a slot having a semi-cylindrical shape that is proximate said bond wire.
2. An RF assembly as claimed in claim 1 wherein a transverse centerline of said slot is proximate said bond wire.
3. An RF assembly as claimed in claim 2 wherein said transverse centerline is substantially parallel to a directrix of said bond wire.
4. An RF assembly as claimed in claim 3 wherein said transverse centerline and said directrix are located within a plane substantially perpendicular to one of said first and second ground planes.
5. An RF assembly as claimed in claim 1 wherein said slot has a depth substantially equal to /2.
6. An RF assembly as claimed in claim 5 wherein: said first ground plane is substantially parallel to said second ground plane; a reference ground plane substantially parallel to said first and second ground planes is between said first and second ground planes; and said depth is referenced to said reference ground plane.
7. An RF assembly as claimed in claim 6 wherein: said first and second ground planes are substantially coplanar; and said reference ground plane is substantially coplanar with said first and second ground planes.
8. An RF assembly as claimed in claim 1 wherein: said slot has an axis proximate and substantially parallel to a directrix of said bond wire; and said slot has a radius substantially equal to /2.
9. An RF assembly as claimed in claim 1 wherein: said slot has a depth substantially equal to /2; said slot progresses in a first direction for a first portion of said depth; and said slot progresses in a second direction for a second portion of said depth.
10. An RF assembly as claimed in claim 1 wherein: said slot has a closed end so as to cause a first signal of said predetermined wavelength propagating into said slot to be reflected as a second signal, and said slot has a depth such that, at an entrance to said slot, said second signal has substantially a same phase as said first signal.
11. A ground-plane interfacing method of first and second components operating at a predetermined frequency, said method comprising: a) establishing a first ground plane with a first grounding member of said first component; b) establishing a second ground plane with a second grounding member of said second component; c) coupling said first grounding member to said second grounding member; d) forming, as a result of said coupling activity c), a slot having a semi-cylindrical shape that is between said first and second components; and e) coupling said first component to said second component via a bond wire proximate to said slot.
12. A ground-plane interfacing method as claimed in claim 11 wherein said forming activity d) forms said slot with a depth substantially equal to /2.
13. A ground-plane interfacing method as claimed in claim 11 wherein: said method additionally comprises aligning, prior to said coupling activity c), said first and second grounding members; said coupling activity c) couples said first grounding member to said second grounding member while maintaining said aligning activity; and said forming activity d) forms said slot with a depth substantially equal to /2 referenced to a reference ground plane residing between said first and second ground planes.
14. A ground-plane interfacing method as claimed in claim 13 wherein said aligning activity aligns said first and second grounding members so that said first and second ground planes are substantially coplanar, and said reference ground plane is substantially coplanar with said first and second ground planes.
15. A ground-plane interfacing method as claimed in claim 11 wherein: said coupling activity e) couples said first and second components via a bond wire having a predetermined directrix; and said forming activity d) forms said slot such that a transverse centerline of said slot is proximate and substantially parallel to said predetermined directrix.
16. A ground-plane interfacing method as claimed in claim 15 wherein said forming activity d) forms said slot so that said transverse centerline and said predetermined directrix are located within a plane substantially perpendicular to one of said first and second ground planes.
17. A ground-plane interfacing method as claimed in claim 15 wherein: said transverse centerline being an axis of said slot having said semi-cylindrical shape; and said forming activity d) forms said slot with a radius substantially equal to /2.
18. A ground-plane interfacing method as claimed in claim 11 wherein: said forming activity d) forms said slot with a depth substantially equal to /2; said forming activity d) forms said slot in a first direction substantially perpendicular to one of said first and second ground planes for a first portion of said depth; and said forming activity d) forms said slot in a second direction substantially perpendicular to said first direction for a second portion of said depth.
19. An RF assembly operating at a predetermined wavelength of and having a ground-plane interface between a first component and a second component, said RF assembly comprising: a bond wire coupling said first component to said second component along a directrix of said bond wire; a first grounding member of said first component, wherein said first grounding member establishes a first ground plane; and a second grounding member of said second component, wherein said second grounding member establishes a second ground plane substantially coplanar with said first ground plane, and wherein said second grounding member is coupled to said first grounding member so as to create a semi-cylindrical slot having an opening substantially coincident with one of said first and second ground planes, wherein said slot has an axis proximate and substantially parallel to said directrix of said bond wire, wherein said semi-cylindrical slot has a radius substantially equal to /2, and wherein said axis and said directrix are located within a plane substantially perpendicular to one of said first and second ground planes.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
June 12, 2000
April 9, 2002
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